Conference Topics
Click on each Topic Category to view the subtopics:
ADVANCED FUNDAMENTALS OF FLUID MECHANICS, ENERGY AND HEAT TRANSFER PROCESSES
Research in this field aims to deepen the understanding of transport phenomena and optimize energy conversion systems through advanced theoretical and numerical approaches. The primary goal is to develop precise models for fluid dynamics and heat transfer, which are nedeed for increasing the efficiency of industrial processes and energy storage systems. By integrating CFD methods and thermodynamic principles, the work focuses on establishing sustainable technical solutions that address current challenges in energy resource security and thermal loss reduction in complex engineering systems.
INDOOR ENVIRONMENT QUALITY AND CIVIL ENGINEERING SCIENCES
This research direction integrates civil engineering principles with environmental factor management to ensure high standards of health and comfort in human-occupied spaces. The emphasis is on designing resilient structures that incorporate natural ventilation strategies, passive cooling systems, and advanced indoor air quality monitoring. The goal is to link the structural integrity of buildings with thermal performance, using numerical modeling to predict airflow and optimize the energy efficiency of the built environment without compromising user well-being.
OUTDOOR ENVIRONMENT QUALITY AND MANAGEMENT OF ATMOSPHERIC POLLUTION
Research activities focus on analyzing and mitigating the impact of human activities on air quality in dense urban areas. It aims to develop and implement sensor networks for real-time monitoring of pollutants and use mathematical models to study their dispersion based on urban morphology. The major objective is to establish technological strategies for emission reduction and local microclimate management, contributing to sustainable urban planning and the protection of public health against atmospheric pollution.
NATURAL AND TECHNOLOGICAL RISK MANAGEMENT
his field addresses the resilience of critical infrastructure, the built environment, and communities facing various threats, from seismic and hydrological risks to fires and complex technological accidents. Research aims to develop prediction and intervention tools based on advanced monitoring technologies and modeling of extreme phenomena. The main goal is to strengthen emergency response capacity through strategies to reduce structural vulnerability and specific protection measures for the built environment and urban interface zones, ensuring life safety and the functional continuity of cities.